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Please use this identifier to cite or link to this item:
http://hdl.handle.net/1893/26775

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DC Field

Value

Language

dc.contributor.author

Hilt, Sabine

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dc.contributor.author

Nunez, Marta M Alirangues

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dc.contributor.author

Bakker, Elisabeth S

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dc.contributor.author

Blindow, Irmgard

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dc.contributor.author

Davidson, Thomas A

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dc.contributor.author

Gillefalk, Mikael

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dc.contributor.author

Hansson, Lars-Anders

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dc.contributor.author

Janse, Jan H

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dc.contributor.author

Janssen, Annette B G

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dc.contributor.author

Jeppesen, Erik

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dc.contributor.author

Kabus, Timm

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Kelly, Andrea

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Kohler, Jan

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dc.contributor.author

Lauridsen, Torben L

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dc.contributor.author

Willby, Nigel

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dc.date.accessioned

2018-04-07T00:48:44Z

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dc.date.available

2018-04-07T00:48:44Z

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dc.date.issued

2018-02-19

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dc.identifier.other

194

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dc.identifier.uri

http://hdl.handle.net/1893/26775

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dc.description.abstract

Submerged macrophytes play a key role in north temperate shallow lakes by stabilising clear-water conditions. Eutrophication has resulted in macrophyte loss and shifts to turbid conditions in many lakes. Considerable efforts have been devoted to shallow lake restoration in many countries, but long-term success depends on a stable recovery of submerged macrophytes. However, recovery patterns vary widely and remain to be fully understood. We hypothesize that reduced external nutrient loading leads to an intermediate recovery state with clear spring and turbid summer conditions similar to the pattern described for eutrophication. In contrast, lake internal restoration measures can result in transient clear-water conditions both in spring and summer and reversals to turbid conditions. Furthermore, we hypothesize that these contrasting restoration measures result in different macrophyte species composition, with added implications for seasonal dynamics due to differences in plant traits. To test these hypotheses, we analysed data on water quality and submerged macrophytes from 49 north temperate shallow lakes that were in a turbid state and subjected to restoration measures. To study the dynamics of macrophytes during nutrient load reduction, we adapted the ecosystem model PCLake. Our survey and model simulations revealed the existence of an intermediate recovery state upon reduced external nutrient loading, characterised by spring clear-water phases and turbid summers, whereas internal lake restoration measures often resulted in clear-water conditions in spring and summer with returns to turbid conditions after some years. External and internal lake restoration measures resulted in different macrophyte communities. The intermediate recovery state following reduced nutrient loading is characterised by a few macrophyte species (mainly pondweeds) that can resist wave action allowing survival in shallow areas, germinate early in spring, have energy-rich vegetative propagules facilitating rapid initial growth and that can complete their life cycle by early summer. Later in the growing season these plants are, according to our simulations, outcompeted by periphyton, leading to late-summer phytoplankton blooms. Internal lake restoration measures often coincide with a rapid but transient colonisation by hornworts, waterweeds or charophytes. Stable clear-water conditions and a diverse macrophyte flora only occurred decades after external nutrient load reduction or when measures were combined.

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